Computer Vision

Researchers

Awards

AWARD Best Paper - Honorable Mention Award at WACV 2021
Date: January 6, 2021
Awarded to: Rushil Anirudh, Suhas Lohit, Pavan Turaga
MERL Contact: Suhas Lohit
Research Areas: Computational Sensing, Computer Vision, Machine Learning
Brief
- A team of researchers from Mitsubishi Electric Research Laboratories (MERL), Lawrence Livermore National Laboratory (LLNL) and Arizona State University (ASU) received the Best Paper Honorable Mention Award at WACV 2021 for their paper "Generative Patch Priors for Practical Compressive Image Recovery".
  
  The paper proposes a novel model of natural images as a composition of small patches which are obtained from a deep generative network. This is unlike prior approaches where the networks attempt to model image-level distributions and are unable to generalize outside training distributions. The key idea in this paper is that learning patch-level statistics is far easier. As the authors demonstrate, this model can then be used to efficiently solve challenging inverse problems in imaging such as compressive image recovery and inpainting even from very few measurements for diverse natural scenes.
AWARD MERL Researchers win Best Paper Award at ICCV 2019 Workshop on Statistical Deep Learning in Computer Vision
Date: October 27, 2019
Awarded to: Abhinav Kumar, Tim K. Marks, Wenxuan Mou, Chen Feng, Xiaoming Liu
MERL Contact: Tim Marks
Research Areas: Artificial Intelligence, Computer Vision, Machine Learning
Brief
- MERL researcher Tim Marks, former MERL interns Abhinav Kumar and Wenxuan Mou, and MERL consultants Professor Chen Feng (NYU) and Professor Xiaoming Liu (MSU) received the Best Oral Paper Award at the IEEE/CVF International Conference on Computer Vision (ICCV) 2019 Workshop on Statistical Deep Learning in Computer Vision (SDL-CV) held in Seoul, Korea. Their paper, entitled "UGLLI Face Alignment: Estimating Uncertainty with Gaussian Log-Likelihood Loss," describes a method which, given an image of a face, estimates not only the locations of facial landmarks but also the uncertainty of each landmark location estimate.
AWARD R&D100 award for Deep Learning-based Water Detector
Date: November 16, 2018
Awarded to: Ziming Zhang, Alan Sullivan, Hideaki Maehara, Kenji Taira, Kazuo Sugimoto
MERL Contact: Alan Sullivan
Research Areas: Artificial Intelligence, Computer Vision, Machine Learning
Brief
- Researchers and developers from MERL, Mitsubishi Electric and Mitsubishi Electric Engineering (MEE) have been recognized with an R&D100 award for the development of a deep learning-based water detector. Automatic detection of water levels in rivers and streams is critical for early warning of flash flooding. Existing systems require a height gauge be placed in the river or stream, something that is costly and sometimes impossible. The new deep learning-based water detector uses only images from a video camera along with 3D measurements of the river valley to determine water levels and warn of potential flooding. The system is robust to lighting and weather conditions working well during the night as well as during fog or rain. Deep learning is a relatively new technique that uses neural networks and AI that are trained from real data to perform human-level recognition tasks. This work is powered by Mitsubishi Electric's Maisart AI technology.

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News & Events

NEWS Chiori Hori will give keynote on scene understanding via multimodal sensing at AI Electronics Symposium
Date: February 15, 2021
Where: The 2nd International Symposium on AI Electronics
MERL Contact: Chiori Hori
Research Areas: Artificial Intelligence, Computer Vision, Machine Learning, Speech & Audio
Brief
- Chiori Hori, a Senior Principal Researcher in MERL's Speech and Audio Team, will be a keynote speaker at the 2nd International Symposium on AI Electronics, alongside Alex Acero, Senior Director of Apple Siri, Roberto Cipolla, Professor of Information Engineering at the University of Cambridge, and Hiroshi Amano, Professor at Nagoya University and winner of the Nobel prize in Physics for his work on blue light-emitting diodes. The symposium, organized by Tohoku University, will be held online on February 15, 2021, 10am-4pm (JST).
  
  Chiori's talk, titled "Human Perspective Scene Understanding via Multimodal Sensing", will present MERL's work towards the development of scene-aware interaction. One important piece of technology that is still missing for human-machine interaction is natural and context-aware interaction, where machines understand their surrounding scene from the human perspective, and they can share their understanding with humans using natural language. To bridge this communications gap, MERL has been working at the intersection of research fields such as spoken dialog, audio-visual understanding, sensor signal understanding, and robotics technologies in order to build a new AI paradigm, called scene-aware interaction, that enables machines to translate their perception and understanding of a scene and respond to it using natural language to interact more effectively with humans. In this talk, the technologies will be surveyed, and an application for future car navigation will be introduced.
EVENT MERL Virtual Open House 2020
Date & Time: Wednesday, December 9, 2020; 1:00-5:00PM EST
MERL Contacts: Elizabeth Phillips; Jeroen van Baar; Anthony Vetro
Location: Virtual
Research Areas: Applied Physics, Artificial Intelligence, Communications, Computational Sensing, Computer Vision, Control, Data Analytics, Dynamical Systems, Electric Systems, Electronic and Photonic Devices, Machine Learning, Multi-Physical Modeling, Optimization, Robotics, Signal Processing, Speech & Audio
Brief
- MERL will host a virtual open house on December 9, 2020. Live sessions will be held from 1-5pm EST, including an overview of recent activities by our research groups and a talk by Prof. Pierre Moulin of University of Illinois at Urbana-Champaign on adversarial machine learning. Registered attendees will also be able to browse our virtual booths at their convenience and connect with our research staff on engagement opportunities including internship, post-doc and research scientist openings, as well as visiting faculty positions.
  
  Registration: https://mailchi.mp/merl/merl-virtual-open-house-2020
  Schedule: https://www.merl.com/events/voh20
  
  Current internship and employment openings:
  https://www.merl.com/internship/openings
  https://www.merl.com/employment/employment
  
  Information about working at MERL:
  https://www.merl.com/employment

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Research Highlights

Internships

CV1546: Vibration analysis in video sequences

MERL is looking for a self-motivated intern to work on vibration analysis in video sequences. The ideal candidate would be a Ph.D. student with a strong background in machine learning, optimization and computer vision. Experience in computational photography and MATLAB/Python is a plus. You are expected to collaborate with MERL researchers to develop algorithms and prepare manuscripts for scientific publications. The internship is for a minimum of 3 months and the start date is flexible. This internship is preferred to be onsite at MERL, but may be done remotely where you live if the COVID pandemic makes it necessary.
CV1568: Uncertainty Estimation in 3D Face Landmark Tracking

We are seeking a highly motivated intern to conduct original research extending MERL's work on uncertainty estimation in face landmark localization (the LUVLi model) to the domains of 3D faces and video sequences. The successful candidate will collaborate with MERL researchers to design and implement new models, conduct experiments, and prepare results for publication. The candidate should be a PhD student in computer vision and machine learning with a strong publication record. Experience in deep learning-based face landmark estimation, video tracking, and 3D face modeling is preferred. Strong programming skills, experience developing and implementing new models in deep learning platforms such as PyTorch, and broad knowledge of machine learning and deep learning methods are expected.
CV1569: Robot learning from videos of human demonstrations

MERL is looking for a highly motivated and qualified intern to work on developing algorithms for robot learning from videos of human demonstrations. The ideal candidate would be a current Ph.D. student with a strong background in computer vision, deep learning, and robotics. Familiarity with imitation learning, learning from demonstrations (LfD), reinforcement learning, and machine learning for robotics will be valued. Proficiency in Python programming is necessary and experience in working with a physics engine simulator like Mujoco or pyBullet is a plus. A successful candidate will collaborate with MERL researchers and publication of the relevant results is expected. Start date is flexible and the expected duration of the internship is 3-4 months. Interested candidates are encouraged to apply with their recent CV and list of publications in related topics. This internship is preferred to be onsite at MERL, but may be done remotely where you live if the COVID pandemic makes it necessary.

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Openings

CV1526: Research Scientist or Senior Research Scientist - Computer Vision

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Recent Publications

Shi, L., Liu, D., Umeda, M., Hana, N., "Fusion-Based Image Correlations Framework For Strain Measurement", IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP), February 2021.
BibTeX TR2021-012 PDF
- @inproceedings{Shi2021feb,
- author = {Shi, Laixi and Liu, Dehong and Umeda, Masaki and Hana, Norihiko},
- title = {Fusion-Based Image Correlations Framework For Strain Measurement},
- booktitle = {IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP)},
- year = 2021,
- month = feb,
- url = {https://www.merl.com/publications/TR2021-012}
- }
Geng, S., Gao, P., Chatterjee, M., Hori, C., Le Roux, J., Zhang, Y., Li, H., Cherian, A., "Dynamic Graph Representation Learning for Video Dialog via Multi-Modal Shuffled Transformers", AAAI Conference on Artificial Intelligence, February 2021.
BibTeX TR2021-010 PDF
- @inproceedings{Geng2021feb,
- author = {Geng, Shijie and Gao, Peng and Chatterjee, Moitreya and Hori, Chiori and Le Roux, Jonathan and Zhang, Yongfeng and Li, Hongsheng and Cherian, Anoop},
- title = {Dynamic Graph Representation Learning for Video Dialog via Multi-Modal Shuffled Transformers},
- booktitle = {AAAI Conference on Artificial Intelligence},
- year = 2021,
- month = feb,
- url = {https://www.merl.com/publications/TR2021-010}
- }
Lohit, S., Anirudh, R., Turaga, P., "Recovering Trajectories of Unmarked Joints in 3D Human Actions Using Latent Space Optimization", IEEE Winter Conference on Applications of Computer Vision (WACV), January 2021.
BibTeX TR2021-004 PDF
- @inproceedings{Lohit2021jan,
- author = {Lohit, Suhas and Anirudh, Rushil and Turaga, Pavan},
- title = {Recovering Trajectories of Unmarked Joints in 3D Human Actions Using Latent Space Optimization},
- booktitle = {IEEE Winter Conference on Applications of Computer Vision (WACV)},
- year = 2021,
- month = jan,
- url = {https://www.merl.com/publications/TR2021-004}
- }
Anirudh, R., Lohit, S., Turaga, P., "Generative Patch Priors for Practical Compressive Image Recovery", IEEE Winter Conference on Applications of Computer Vision (WACV), January 2021.
BibTeX TR2021-003 PDF
- @inproceedings{Anirudh2021jan,
- author = {Anirudh, Rushil and Lohit, Suhas and Turaga, Pavan},
- title = {Generative Patch Priors for Practical Compressive Image Recovery},
- booktitle = {IEEE Winter Conference on Applications of Computer Vision (WACV)},
- year = 2021,
- month = jan,
- url = {https://www.merl.com/publications/TR2021-003}
- }
Nowara, E., Marks, T., Mansour, H., Veeraraghavan, A., "Near-Infrared Imaging Photoplethysmography During Driving", IEEE Transactions on Intelligent Transportation Systems, DOI: 10.1109/TITS.2020.3038317, pp. 1-12, December 2020.
BibTeX TR2020-161 PDF
- @article{Nowara2020dec,
- author = {Nowara, Ewa and Marks, Tim and Mansour, Hassan and Veeraraghavan, Ashok},
- title = {Near-Infrared Imaging Photoplethysmography During Driving},
- journal = {IEEE Transactions on Intelligent Transportation Systems},
- year = 2020,
- pages = {1--12},
- month = dec,
- doi = {10.1109/TITS.2020.3038317},
- url = {https://www.merl.com/publications/TR2020-161}
- }
Li, M., Chen, S., Chen, X., Zhang, Y., Wang, Y., Tian, Q., "Symbiotic Graph Neural Networks for 3D Skeleton-based Human Action Recognition and Motion Prediction", IEEE Transactions on Pattern Analysis and Machine Intelligence, December 2020.
BibTeX TR2020-166 PDF
- @article{Chen2020dec,
- author = {Li, Maosen and Chen, Siheng and Chen, Xu and Zhang, Ya and Wang, Yanfeng and Tian, Qi},
- title = {Symbiotic Graph Neural Networks for 3D Skeleton-based Human Action Recognition and Motion Prediction},
- journal = {IEEE Transactions on Pattern Analysis and Machine Intelligence},
- year = 2020,
- month = dec,
- url = {https://www.merl.com/publications/TR2020-166}
- }
Corcodel, R., Jain, S., van Baar, J., "Interactive Tactile Perception for Classification of Novel Object Instances", IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), DOI: 10.1109/IROS45743.2020.9341795, November 2020, pp. 9861-9868.
BibTeX TR2020-143 PDF
- @inproceedings{Corcodel2020nov,
- author = {Corcodel, Radu and Jain, Siddarth and van Baar, Jeroen},
- title = {Interactive Tactile Perception for Classification of Novel Object Instances},
- booktitle = {IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)},
- year = 2020,
- pages = {9861--9868},
- month = nov,
- publisher = {IEEE},
- doi = {10.1109/IROS45743.2020.9341795},
- url = {https://www.merl.com/publications/TR2020-143}
- }
Cherian, A., Chatterjee, M., Ahuja, N., "Sound2Sight: Generating Visual Dynamics from Sound and Context", European Conference on Computer Vision (ECCV), Vedaldi, A., Bischof, H., Brox, Th., Frahm, J.-M., Eds., August 2020.
BibTeX TR2020-121 PDF Software
- @inproceedings{Cherian2020aug,
- author = {Cherian, Anoop and Chatterjee, Moitreya and Ahuja, Narendra},
- title = {Sound2Sight: Generating Visual Dynamics from Sound and Context},
- booktitle = {European Conference on Computer Vision (ECCV)},
- year = 2020,
- editor = {Vedaldi, A., Bischof, H., Brox, Th., Frahm, J.-M.},
- month = aug,
- publisher = {Springer},
- url = {https://www.merl.com/publications/TR2020-121}
- }

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ChioriHori

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TakaakiHori

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Video Anomaly Detection

MERL Shopping Dataset

Point-Plane SLAM

CV1546: Vibration analysis in video sequences

CV1568: Uncertainty Estimation in 3D Face Landmark Tracking

CV1569: Robot learning from videos of human demonstrations

CV1526: Research Scientist or Senior Research Scientist - Computer Vision

Towards Human-Level Learning of Complex Physical Puzzles

3D Object Discovery and Modeling Using Single RGB-D Images Containing Multiple Object Instances

Joint 3D Reconstruction of a Static Scene and Moving Objects

Direct Multichannel Tracking

FoldingNet: Interpretable Unsupervised Learning on 3D Point Clouds

FasTFit: A fast T-spline fitting algorithm

CASENet: Deep Category-Aware Semantic Edge Detection

Object Detection and Tracking in RGB-D SLAM via Hierarchical Feature Grouping

Pinpoint SLAM: A Hybrid of 2D and 3D Simultaneous Localization and Mapping for RGB-D Sensors

Action Detection Using A Deep Recurrent Neural Network

Saffron - Digital Type System

Sapphire - High Accuracy NC Milling Simulation

MERL Research on Autonomous Vehicles

Dose optimization for particle beam therapy

3D Reconstruction

Robot Bin Picking

Semantic Scene Labeling

Obstacle Detection

Deep Hierarchical Parsing for Semantic Segmentation

Global Local Face Upsampling Network

Gaussian Conditional Random Field Network for Semantic Segmentation

Fast Graspability Evaluation on Single Depth Maps for Bin Picking with General Grippers

Point-Plane SLAM for Hand-Held 3D Sensors

Tracking an RGB-D Camera Using Points and Planes

Fast Plane Extraction in Organized Point Clouds Using Agglomerative Hierarchical Clustering

Calibration of Non-Overlapping Cameras Using an External SLAM System

Voting-Based Pose Estimation for Robotic Assembly Using a 3D Sensor

Fast Object Localization and Pose Estimation in Heavy Clutter for Robotic Bin Picking

Learning to rank 3D features

Generating Visual Dynamics from Sound and Context

Adversarially-Contrastive Optimal Transport

MotionNet

Contact-Implicit Trajectory Optimization

FoldingNet++

Landmarks’ Location, Uncertainty, and Visibility Likelihood

Gradient-based Nikaido-Isoda

Circular Maze Environment

Discriminative Subspace Pooling

Kernel Correlation Network

Fast Resampling on Point Clouds via Graphs

FoldingNet

Jeroen
van Baar

Tim
Marks

Michael
Jones

Anoop
Cherian

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Sullivan

Matthew
Brand

Chiori
Hori

Hassan
Mansour

Ronald
Perry

Takaaki
Hori

Jay
Thornton

Radu
Corcodel

Petros
Boufounos

Devesh
Jha

Dehong
Liu

Suhas
Lohit

Daniel
Nikovski

Arvind
Raghunathan

Diego
Romeres

Anthony
Vetro

Ye
Wang

Gordon
Wichern

William
Yerazunis

Siddarth
Jain

Toshiaki
Koike-Akino

Jonathan
Le Roux

Philip
Orlik

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Sun

Yebin
Wang

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Haritsa

Kuan-Chuan
Peng